This brief focuses on the problem of H∞ control for a class of networked control systems with time-varying delay in both forward and backward channels. Based on the average dwell-time method, a novel delay-compensation strategy is proposed by appropriately assigning the subsystem or designing the switching signals. Combined with this strategy, an improved predictive controller design approach in which the controller gain varies with the delay is presented to guarantee that the closed-loop system is exponentially stable with an H∞-norm bound for a class of switching signal in terms of nonlinear matrix inequalities. Furthermore, an iterative algorithm is presented to solve these nonlinear matrix inequalities to obtain a suboptimal minimum disturbance attenuation level. A numerical example illustrates the effectiveness of the proposed method

Liu, G. P.

Rees, David

Wang, Bo

Wang, Rui

Wang, Wei

English

Warwick Research Archives Portal Repository

A cone complementarity linearization algorithm for static output-feedback and related problems,”

Analysis and synthesis of networked control systems: Topological entropy, observability, robustness and optimal control,”

Design and stability criteria of networked predictive control systems with random network delay

Disturbance attenuation properties of time-controlled switched systems,”

Feedback scheduling of model-based networked control systems with ﬂexible workload,”

Montestruque and P.Antsaklis, “Stability of model-based networked control systems with time-varying transmission times,”

Networked predictive control of systems with random network delays in both forward and feedback channels,”

Networked predictive control systems based on Hammerstein model,”

Protocol and fault detection design for nonlinear networked control systems,”

Robust and reduced order ﬁltering: New LMI-based characterizations and methods,”

Scheduling of networked control systems,”

Stability and L2-gain analysis for switcheddelaysystems:Adelay-dependentmethod,”Automatica,vol.42,

Stability of networked control systems,”

Stability of switched systems with average dwell-time,” in

State feedback controller design of network control systems,”

Switching in Systems and Control.

H∞ controller design for networked predictive control systems based on the average dwell-time approach

This brief focuses on the problem of H-infinity control for a class of networked control systems with time-varying delay in both forward and backward channels. Based on the average dwell-time method, a novel delay-compensation strategy is proposed by appropriately assigning the subsystem or designing the switching signals. Combined with this strategy, an improved predictive controller design approach in which the controller gain varies with the delay is presented to guarantee that the closed-loop system is exponentially stable with an H-infinity=norm bound for a class of switching signal in terms of nonlinear matrix inequalities. Furthermore, an iterative algorithm is presented to solve these nonlinear matrix inequalities to obtain a suboptimal minimum disturbance attenuation level. A numerical example illustrates the effectiveness of the proposed method

Liu, Guo-Ping

H-infinity controller design for networked predictive control systems based on the average dwell-time approach

http://wrap.warwick.ac.uk/3304/1/WRAP_Wang_H_Controller.pdf

H∞ controller design for networked predictive control systems based on the average dwell-time approach

Abstract

Similar works

Full text

Available Versions

Warwick Research Archives Portal Repository

Warwick Research Archives Portal Repository